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Evolutionary divergence in CTCF-mediated chromatin topology drives transcriptional innovation in humans

Author

Listed:
  • Xia Wu

    (Sun Yat-sen University)

  • Dan Xiong

    (Sun Yat-sen University)

  • Rong Liu

    (Sun Yat-sen University
    Sun Yat-Sen University)

  • Xingqiang Lai

    (Sun Yat-Sen University)

  • Yuhan Tian

    (Sun Yat-sen University)

  • Ziying Xie

    (Sun Yat-sen University)

  • Li Chen

    (Sun Yat-sen University)

  • Lanqi Hu

    (Sun Yat-sen University)

  • Jingjing Duan

    (Sun Yat-sen University)

  • Xinyu Gao

    (Sun Yat-sen University)

  • Xian Zeng

    (Sun Yat-sen University)

  • Wei Dong

    (Sun Yat-sen University)

  • Ting Xu

    (Sun Yat-sen University)

  • Fang Fu

    (Guangzhou Medical University)

  • Xin Yang

    (Guangzhou Medical University)

  • Xinlai Cheng

    (Goethe-University Frankfurt)

  • Dariusz Plewczynski

    (Warsaw University of Technology
    University of Warsaw)

  • Minji Kim

    (University of Michigan)

  • Wenjun Xin

    (Sun Yat-sen University)

  • Tianyun Wang

    (Peking University
    Ministry of Education of China & National Health Commission of China
    Peking University Health Science Center)

  • Andy Peng Xiang

    (Sun Yat-Sen University)

  • Zhonghui Tang

    (Sun Yat-sen University)

Abstract

Chromatin topology can impact gene regulation, but how evolutionary divergence in chromatin topology has shaped gene regulatory landscapes for distinctive human traits remains poorly understood. CTCF sites determine chromatin topology by forming domains and loops. Here, we show evolutionary divergence in CTCF-mediated chromatin topology at the domain and loop scales during primate evolution, elucidating distinct mechanisms for shaping regulatory landscapes. Human-specific divergent domains lead to a broad rewiring of transcriptional landscapes. Divergent CTCF loops concord with species-specific enhancer activity, influencing enhancer connectivity to target genes in a concordant yet constrained manner. Under this concordant mechanism, we establish the role of human-specific CTCF loops in shaping transcriptional isoform diversity, with functional implications for disease susceptibility. Furthermore, we validate the function of these human-specific CTCF loops using human forebrain organoids. This study advances our understanding of genetic evolution from the perspective of genome architecture.

Suggested Citation

  • Xia Wu & Dan Xiong & Rong Liu & Xingqiang Lai & Yuhan Tian & Ziying Xie & Li Chen & Lanqi Hu & Jingjing Duan & Xinyu Gao & Xian Zeng & Wei Dong & Ting Xu & Fang Fu & Xin Yang & Xinlai Cheng & Dariusz , 2025. "Evolutionary divergence in CTCF-mediated chromatin topology drives transcriptional innovation in humans," Nature Communications, Nature, vol. 16(1), pages 1-33, December.
    • Handle: RePEc:nat:natcom:v:16:y:2025:i:1:d:10.1038_s41467-025-58275-7
    DOI: 10.1038/s41467-025-58275-7
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